DE3239879C2 - Vulcanizing press for vehicle tires - Google Patents

Abstract

A tire curing press is constructed so that a mold assembly is sealed by a press cylinder with an intermediate table raised and lowered, and a spacer between the cylinder and the table can be displaced so that a given force to close the mold is exerted by the press cylinder the spacer and the lifting and lowering table can be transferred to the mold assembly when this assembly is locked.

Description

The invention relates to a vulcanizing press for vehicle tires according to the preamble of the patent claim 1.

A previously known vulcanizing press of the specified type is generally constructed so that the Raising and lowering table has a working stroke of about 1000 mm for tires for passenger cars and about 2000 mm for tires for a truck, bus or the like. Has to ensure that a "green" to vulcanizing tire onto the lower mold half of the mold assembly without affecting any Part of the press is brought, It is natural that the hydraulic cylinder for sealing the mold assembly is designed so that it has a working stroke that the work table of the lifting and lowering sches corresponds Since the known tire vulcanizing press is constructed in this way, it is to be feared that that between the upper and the lower half of the free mold space exceeds a permissible limit when the hydraulic pressure in the press cylinder due to leakage from a package in the hydraulic Pipe system or the like is reduced and thereby the thermal energy carrier for vulcanization (steam, hot water) in a high pressure press, Ga> high temperature and high pressure or the like in the mold assembly Causes leaks to the outside. To prevent leaks of thermal energy sources from occurring, were already an arrangement of an expensive break barrier ring with the normal operation of the hydraulic press Suggested help of a press switch and other things. However, it has been found that these proposals do not as a means of preventing excessive clearance between the upper and lower mold halves are always sufficient.

The invention is therefore aimed at eliminating the aforementioned disadvantages of the conventional tire curing press directed A vulcanizing press according to the invention is designed so that a mold assembly by means of a Press cylinder is tightly closed with an intermediate lifting and lowering table, with a spacer is slidably disposed between the press cylinder and the table so that a given Transfer the clamping force from the press cylinder to the mold assembly via the spacer and the table when it should be closed.

It is therefore an object of the invention to provide a tire vulcanizing press that reliably occurs can prevent excessive mold opening by mechanical means and which is extremely high Has operational reliability and is also simple in construction and manufactured at low cost can be.

According to the invention, this object is achieved by the features of the characterizing part of the patent claim 1 solved.

With regard to an arrangement with one slidable between the press cylinder and the lifting and lowering table arranged spacer and the transmission of a given mold clamping force from the press cylinder onto the mold assembly over the spacer and table when the assembly is sealed is to be ensured that the spacer is in a position on the middle part of the table in correct alignment · with the press rod of the cylinder is brought after the press cylinder has been lowered that the cylinder is a very short one Has working stroke which is sufficiently dimensioned that it has a given mold clamping force on the mold assembly exercises, the working stroke being less than

is a permissible opening limit, and that an excessive mold opening by keeping the working stroke small of the press cylinder and the arrangement of the spacer is reliably prevented when the hydraulic Pressure in the cylinder od as a result of a mechanical failure, a failure. The like. Is reduced, so that there is no risk of the thermal energy carrier leaking for vulcanization. With regard to the Arrangement that the press cylinder has a very small working stroke, the spacer in between between the cylinder and the table ensures that the mold assembly is quickly and properly sealed is locked.

An embodiment of the invention is based on

The drawing is explained in this

F i g. 1 is a front view of a tire vulcanizing press;

F i g. 2 is a view of the tire vulcanizing press according to FIG. 1;

F i g. Figure 3 is a larger side view of the spacer and associated parts for the vulcanizing press Depiction; and

F i g. 4 shows a side view of the spacer on which an adjusting nut is placed in a larger representation.

In the embodiment according to FIGS. 1 to 3 is a press frame 1, a lifting and lowering table 2, a thermal one Insulating plate 3, an upper hot plate 4, an upper mold half 5, a lower mold half 6, a to vulcanizing tire a, a lower hot plate 8, another thermal insulating plate 9, a press cylinder 10, an auxiliary cylinder 11, a spacer 12 and a thermal energy carrier 13 can be seen. The vulcanizing press according to the invention consists of the combination of the above parts.

F i g. Figure 1 shows a front view of a double press according to the invention. The left press is located in which the pivoting movement of the spacer 12 is secured "

The arm 32 '(Fig. 2) has an extension 33 in the form of a lever, the extreme end of which is connected to a rod end of a cylinder 35 by a part 34. The cylinder 35 is pivotably attached to the end part of the table 2 by operating the cylinder 35 back and forth, the spacer 12 rotates about the shaft 23 in the directions indicated by arrows, whereby it assumes a position A , as can be seen in the left half of the drawing, or it will assume a position B , as shown in FIG Right half of the drawing shows At the top of the spacer 12, an adjustment aligner is attached so that the height of the spacer 12 can be adjusted.

While the vulcanizing press is kept in the state of the open mold, as shown on the right in FIG. 1 can be seen, a green tire a, which is to be vulcanized, is transferred from the outside with the help of a conveyor system (not shown) and brought .v * nn onto the lower mold half 6 11 lowered together with table 2. The insulating plate 3 and the upper one

State of the closed mold, with a tire to be vulcanized lying in a mold assembly, while hot plates 4 are lowered until it is shown in the open state with the lower end of the right press, mold half. are properly aligned. When the hydraulic where the mold assembly is actuated to receive a see or pneumatic cylinder 35, most of the tire is ready to be vulcanized. Anyone who has his rod pulled out, the auxiliary spacer cylinder 11 is on a bracket 14 on the side holder 12 from the position B into the position (FIG. 2) wall of the press frame 1 by means of screws 15 30 offset until it is attached directly under the press bar and its bar 16 is connected to the lower end of the 36 of the hydraulic cylinder 10 in the middle of the Ti table with this. The press cylinder 10
is firmly attached to the lifting surface 17 of the upper part of the press frame 1 by means of screws 18. The cylinder ilO is used for pressing both the upper and 35
the lower mold half 5 or 6 with a given
Force through the lowered table 2 and the spacer 12, which will be described. So it's only a very
short working stroke necessary. The table 2, the insulating plate 3, the upper hot plate 4 and the upper mold 40 of the hydraulic cylinder 10 is first returned to the starting position in the outer half 5 by means of screws (not shown) and then the spacer 12 is opened by the force of the helical spring 29 raised. When the rod of the cylinder 35 is drawn in, the spacer 12 moves in the horizontal 45 direction into position B (FIG. 2), whereby it comes out of the working position of the cylinder 10. After it has been established that the spacer 12 occupies this position, the auxiliary cylinders 11 are actuated, whereby the upper mold half 5 together with the table around a shaft 23, which is raised by two bushings 21 and 22 on 50 2 by means of the rods 16 on the Position geeiner bracket 19 are held, rotatably move. is brought, as shown on the right in FIG. 1 can be seen. Now the bracket 19 is on the end part of the table 2 by means of the vulcanized tire ready, from the lower half 6 screws 20 firmly attached. The shaft 23 also contains to be removed.

a nut screwed onto its upper part.

25, a washer 26, a thrust bearing 27 in a 55 has different dimensions, must be in a different

sches 2 is when the hydraulic cylinder 10 is actuated and thereby downward slide. the press bar 36, the upper mold half 5 is attached to the lower mold half 6 from the spacer 12 and from the table 2 pressed tightly, so that the intended clamping of the form with the given force is ensured.

Then, the vulcanized tire is taken out through the following steps. The press bar 36

connected to each other, while the lower mold half 6, the lower hot plate 8 and the insulating plate 9 through Screws (not shown) are firmly attached to the press frame 1.

The spacer 12 is located, as shown in FIG. 2 and 3 can be seen, on the table 2 so in the vertical Direction that it moves in the horizontal direction. The spacer 12 can rotate by rotating

Bearing holder 28, a coil spring 29, a washer 30 over the bushing 21 and a washer 3t under the same, so that the shaft 23 is normally urged by the stretching force of the coil spring 29 upward. The spacer 12 is connected to the shaft 23 by means of an arm 32 ′ and a sleeve 32. Pins 24 pass through shaft 23 and sleeve 32. As long as the spacer 12 is located away from the press rod 36 of the hydraulic cylinder 10, the shaft 23 is raised by means of the helical spring 29, creating a narrow space between the lower end of the spacer 12 and the upper surface of the table 2, so that their vulcanization c ^v ie mold arrangement have a different height. In order to correspond to the changed dimensions, the alignment adjuster 37 at the upper end of the spacer 12 is removed or replaced by another. However, one or more aligners can also be provided in addition to the alignment adjuster. The height can also be adjusted by turning an adjusting nut 38 which is screwed around the upper threaded part of the spacer (FIG. 4).

By changing the arrangement of the alignment adjuster 37 or the adjusting nut 38, the Press cylinder 10 increasing the working stroke equi-

valents for dimensional change in the thickness of the mold assembly. The press cylinder 1Ö is with a pilot-operated check valve provided to reduce the hydraulic working pressure in the To prevent press cylinder 10 as a result of the increased working stroke.

Since the vulcanizing press according to the invention is designed so that with a green tire to be vulcanized a, the table 2 is lowered together with the upper mold half 5 and then the spacer 12 in ι ο (you position A in the middle part of the table 2 is correctly aligned with the press rod 36 of the hydraulic cylinder 10 is brought, and then both the upper and the lower mold halves 5 and 6 are firmly closed by means of the hydraulic cylinder 10 with the spacer 12 is and the table 2 in between, the press cylinder 10 with the be provided with the smallest working stroke, which is sufficient for a necessary clamping force which is exerted on the mold assembly.

Another advantageous feature of the invention is that between the upper and lower halves of the mold 5 or 6, a mold opening within a permissible range with regard to the reduced working stroke of the press cylinder 10 and the arrangement of the spacer 12 is limited when the hydraulic pressure infoige a mechanical failure, one Failure or dgL is reduced.

Another advantageous feature of the invention is that the arrangement of the alignment adjuster 37 or the adjusting nut 38 at the top of the spacer 12, the distance between the top of the spacer 12 and the lower end of the press rod 36 are substantially constant and at all times can be kept short, regardless of exchanging the mold assembly for one with different dimensions, creating an excessive mold opening between the top and bottom Half of the shape is practically prevented.

40

For this purpose 2 sheets of drawings

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ft! $ 50

55 ds

65

Claims (7)

Patent claims: 1. Vulcanizing press for vehicle tires, in which a mold assembly of a press cylinder with is tightly closed by an intermediate lifting or lowering table, characterized in that that a spacer (12) between the press cylinder (10) and the lifting or lowering table (2) is pivotably arranged so that a given force to close the mold from Press cylinder (10) is transferred over the spacer (12) and the table (2) when the mold assembly (5,6) is closed. 2. Press according to claim 1, characterized in that that an upper mold half (5) is firmly attached to the lifting and lowering table (2), so that the upper Mold half (5) can be moved up and down together with the table (2). 3. Press according to claim 1, characterized in that that the spacer (12) in a place in the The middle of the upper mold half (5) is brought when the mold assembly (5, 6) is tightly closed will. 4. Press according to claim 3, characterized in that the spacer (12) from the position (A) in the middle of the upper mold halves (5) is brought into another position (B) where the press frame is not impaired, while the upper half of the mold (5) is raised, and that the movement is carried out so that the spacer (12) rotates about a pivot shaft (23) 5. Press according to claim 1, characterized in that the height of the spacing (12) is adjustable is. 6. Press according to claim 1, characterized in that the spacer (12) normally of a helical spring (29) is pressed upwards so that between the lower end of the spacer (12) and the upper surface of the lifting and lowering table (2) creates a narrow space when the Mold assembly comes free from the locked state. 7. Press according to claim 1, characterized in that the lower mold half (6) fixed to the press frame (1) is attached and it is connected to a thermal energy carrier (13), which is a device feeds to ensure the intended vulcanization.